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Are Certain Dividend Increases Predictable?The Effect of Repeated Dividend Increases on Market Returns
Abstract
Positive abnormal returns around dividend increase announcements are well documented. This study offers a new perspective by identifying quarterly dividend paying firms with patterns, or chains, of once-a-year dividend increases. We count the number of consecutive years a firm maintains this dividend increase pattern, called the chain length, and examine returns at each numbered increase within the chain. In light of survey results that indicate firms endeavor to maintain steady dividend payments, one hypothesis is that after a certain number of dividend increases, a firm develops a “track record” and consequently the market learns to anticipate subsequent dividend increases. Consistent with this hypothesis, we discover that abnormal returns are significantly positive for the first and second dividend increase only. Our results suggest that, by the third consecutive increase, the market has learned to expect further increases. Our findings are robust and provide further evidence that, consistent with other types of corporate announcements, the stock market reaction is different depending on how often the event has already occurred.
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1. Introduction
It is well-established that a change in the dividend amount is associated with
abnormal stock returns.1 Moreover, survey evidence reveals that the most common
objective of dividend policy decision-makers is to maintain constant or smoothly
increasing dividend payments with a strong aversion to dividend decreases.2
Consistent with these survey results, the empirical evidence in this study shows that,
in practice, many firms’ dividend policies are characterized by a pattern of steadily
increasing dividends over time. Given that survey evidence reveals a clear desire to
deliver steadily increasing dividends, and that dividend increases are associated with
positive abnormal returns, a natural question arises: Do abnormal returns around
dividend increase announcements differ depending on the firm’s dividend history?
This study seeks to answer this question by identifying the number of consecutive
years of once-a-year dividend increases, called the Chain Length, and then examining
short-term returns around each increase, in sequence, within the chain. DeAngelo and
DeAngelo (2007) contend that a “strong” track record of dividend payments signals
managers’ intent to deliver future strong dividends. Although they do not define
“strong” we propose that a pattern of regular quarterly dividends with regular
dividend increases represents one particular type of dividend policy that may be
considered “strong.” In this scenario, one hypothesis is that once a firm has
developed a “track record” of dividend increases the market may extrapolate this
trend into the future. Under this hypothesis, the market’s anticipation of future
dividend increases may result in lower observed abnormal returns when those
dividend increases are announced since the expected increase will be impounded in
the price prior to the announcement. If this hypothesis is true then one would expect
1 Early work includes Pettit (1972) and Aharony and Swary (1980).2 See Lintner (1956) and Brav et al. (2005).
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that the number of prior increases might lead to more accurate predictions of future
increases. For example, it is well-known that dividend initiations are associated with
large positive abnormal returns.3 This finding is presumably due in large part to the
unexpected nature of the change in the dividend from zero to a positive amount as
well as due to the generally greater magnitude of the change in dividends at the
initiation. Following similar reasoning, the first dividend increase after an initiation
may be less expected than subsequent increases and consequently a larger positive
announcement-period abnormal return would be observed. However, it should also
be true that the degree of surprise at the dividend increase announcement also depends
on the length of time that has passed between one increase and the next.
To investigate our hypothesis, we identify the number of prior years of
consecutive once-a-year dividend increases for a sample of firms announcing
dividend increases between 1999 and 2006. The abnormal returns are examined
around the dividend increase announcement date after grouping each increase by its
order of occurrence in the series of consecutive increases. We find that the first and
second increases exhibit significant positive abnormal returns, on average, while the
abnormal returns surrounding the third and subsequent increases are not significant.
We also discover that the size of the dividend change tends to decrease as the
dividend-increase chain lengthens, however the relationship is not significant.
Consequently, the positive relationship between returns and the size of the dividend
reported by earlier research may actually be explained by the fact that larger
percentage dividend changes tend to occur earlier in the chain. After controlling for a
number of firm-specific variables we still find that the first two dividend increases
within a dividend-increase-chain are significant and subsequent increases are not
significant. This result suggests that once a firm increases its dividend for two 3 For example, Michaely et al. (1995).
3
consecutive years, the market learns to anticipate future increases. While little
analysis of the role of firm dividend histories and the announcement effect on market
returns currently exists, the market response to other repeated corporate events such
as consecutive earnings increases have been extensively examined. However, these
studies do not examine abnormal stock returns around consecutive earnings increase
announcements but instead investigate other aspects of the announcing firms’
corporate performance.
The remainder of the paper is organized as follows: Section 2 provides the
motivation for our study. Related research is discussed in Section 3. Section 4
explains how we identify our sample of once-a-year dividend increases and measure
the chain length. The results presented in Section 5 reveal that for each increase
within a chain the first two dividend increases only exhibit significantly positive
abnormal returns, even after controlling for other variables, and Section 6 contains our
conclusions.
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2. Motivation
This study investigates series of consecutive annual dividend increases to
determine if abnormal returns depend on the sequential placement of the dividend
increase within the series. Past studies of the stock price behavior of dividend
increasing firms document significant positive abnormal returns for a narrow two or
three-day window around the time the dividend increase is announced. There is also a
general consensus that the size of the return is related to the size of the dividend
increase and to firm characteristics such as the market-to-book ratio and firm size.
However, past studies have not recognized that the number of consecutive dividend
increases may also be an important factor, which is an avenue that we explore in this
paper.
Surveys by Lintner (1956) and Brav et al. (2005) indicate that those persons
responsible for setting dividends generally advocate a policy of steady dividend
increases and avoidance of dividend decreases. Lintner develops a model that relates
current dividends to past dividends and incorporates the target dividend payout ratio
along with a speed-of-adjustment factor. Evidence in Fama and Babiak (1968)
indicates that firms do indeed exhibit dividend policies consistent with Lintner’s
model.
If unexpected dividend increases are associated with increased value then
when a dividend increase is announced by a firm without any previous dividend
increases, the stock price should increase significantly due to the unexpected nature of
the increase. However when a firm has a history of steadily increasing dividends over
time, the market may come to expect further dividend increases by the firm,
particularly if a clear pattern of prior increases has been established. Consequently,
when future dividend increases are announced, the stock price may not increase
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significantly simply because the increase was fully or largely expected and therefore
the information contained in the announcement has already been impounded in the
stock price.
As a final point of motivation, Mergent and Standard & Poor’s have created a
special category for firms that have a substantial history of consistent annual dividend
increases.4 In addition, numerous mutual funds have been created that invest solely in
firms that have consistently increased their dividends. The investor interest in these
funds further motivates a study of this important subset of firms.
3. Related Studies
Numerous studies find that dividend increase announcements are, on average,
associated with positive abnormal returns (e.g., Pettit, 1972; and Aharony and Swary,
1980). Many studies also find a significant relation between abnormal returns and
various firm financial characteristics, such as dividend yield, firm size (Amihud and
Li, 2006), the size of the dividend change (Yoon and Starks, 1995), market-to-book
value (Lang and Litzenberger, 1989), investor’s dividend preferences (Li and Lie,
2006), return on assets and systematic risk (Grullon et. al., 2002), and the level of
institutional ownership (Amihud and Li, 2006).
An increasing number of published studies investigate repeating corporate
events and they generally conclude that the market does not consider an event in
isolation, but as part of a sequence and that the market treats the event’s ordinal
location within the sequence as important. For example, in the case of splits and
seasoned equity offering announcements returns are statistically significant in
response to the first and second announcement with the third or later announcement
4 Mergent designates any firm that has increased its dividend for at least ten or more consecutive years as a Dividend Achiever. A longer, twenty-five year history of consecutive annual dividend increases is required to be included in Standard and Poors’ ‘S&P Dividend Growth U.S. Basket’.
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displaying insignificant returns. In the case of dividends, we argue that once a firm
develops a track record of a particular number of consecutive dividend increases,
future dividend increases are anticipated and therefore returns are not significant.
There is very little analysis of dividend payment patterns, in contrast to studies that
investigates patterns of other often-repeated corporate finance events. To our
knowledge the only study of dividend change announcements that considers the prior
dividend history is Baker and Wurgler (2011) who argue that investors view
dividends as reference points. Each dividend announcement within a prolonged
period, or streak, of equal-sized quarterly dividends acts as a reminder of the dividend
amount and so any change in the dividend is a prominent event and may be associated
with larger returns. Consistent with this argument that repetition reinforces a reference
point, the difference between returns for small dividend increases compared to small
dividend decreases becomes larger as the streak gets longer.
Our study builds idea that repetition is important by investigating if the
number of prior dividend increases eventually leads to future dividend increases
becoming predictable. Other often-repeated corporate events generally conclude that
various firm valuation measures are different depending on the number of prior
occurrences of the event. For example, Barth, Elliott and Finn (1999) find that firms
with a chain of at least five years of consecutive increases in annual earnings have
higher price-earnings (P/E) multiples than other firms. In contrast to Barth, et al.
(1999) who use annual data, Myers, Myers and Skinner (2007) examine firms with a
sequence of at least five years of consecutive quarterly earnings increases and
document that these firms earn positive abnormal returns for each year of the five year
sequence of quarterly earnings increases. At the announcement of the first decrease in
quarterly earnings, the sequence breaks resulting in significantly negative abnormal
7
returns, which are more negative the longer the prior history of consecutive earnings
increases. This reaction may have the unintended consequence of encouraging firms
that may anticipate an earnings decrease to instead manage earnings in such a way to
achieve an earnings increase and thereby ensure the record of earnings-increases
continues unbroken.
Instead of patterns in earnings, a number of studies investigate patterns in the
number of times firms equal or exceed analysts’ earnings forecasts, known as “meet-
or-beat earnings”, or MBE, and how the frequency is related to returns. Bartov,
Givoly and Hayn (2002) find that firms with a MBE record in at least nine of the past
twelve quarters display significantly higher abnormal returns around earnings
announcements compared to firms without such a record. Another study by Kasznik
and McNichols (2002) reveals that each of the first three MBE events the firm
displays positive abnormal returns in the year leading up to the MBE announcement,
but the incremental return is smaller as the number of consecutive prior MBE
increases. While the previous evidence suggests that the stock market attributes a
premium to firms with a particular record of MBE, understanding how measures of
return relate to both the pattern and the magnitude of MBE events remains largely
unexplored territory. Instead of analyzing returns, Mikhail, Walther and Willis (2004)
investigate firms with a history of MBE by more than one percent of the stock price (a
“large” MBE event) and determine that these firms have a higher cost of equity
capital compared to firms without a record of large MBE events.
Apart from earnings and dividends other corporate finance events also report
different returns depending on the event’s prior frequency. For example, returns
around seasoned equity offering (SEO) announcements are less negative as the
number of previous SEOs increases (D’Mello, Tawatnuntachai and Yaman, 2003).
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Similarly, for U.K. rights offerings, Iqbal (2008) reports significantly negative
abnormal returns around the first and second rights offering announcement while
subsequent announcements exhibit returns not significantly different from zero.
In the case of stocks splits, Huang, et al. (2008) examine firms’ splitting
history and find no significant difference in returns around split announcements for
firms that have split three or more times in the prior five years compared to those with
two or fewer splits. However, grouping together split announcements with one, two or
three prior splits conceals the difference that exists between each subgroup. For
example, Pilotte and Manuel (1996) find that abnormal returns around split
announcements tend to become smaller and less significant the more often the firm
has split in the past.
Finally, as shown by Elliott and Hanna (1996), firms with a history of multiple
large accounting write-offs exhibit smaller abnormal returns around unexpected
earnings announcements compared to firms that have not declared any recent large
write-offs, again suggesting that when an event is repeated often enough, the market
learns to expect it.
4. Sample Selection and Descriptive Statistics
Dividend information is obtained from the Center for Research in Security
Prices (CRSP) database. All taxable regular quarterly dividends (i.e. dividends with a
CRSP Distribution Code of 1232) with a declaration date during 1962-2006 are
identified. Although this study examines abnormal returns around dividend increase
announcements that occur during 1999-2006 only, we investigate firms’ entire prior
dividend history to correctly determine the length of the dividend-increase chain at a
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particular point in time, called the Chain Length.5 For each firm, year t is defined as
the year of the first dividend increase.6 If the following three conditions hold:
(i) Year t+1 contains a single dividend increase,
(ii) The amount of each of the dividends between the dividend increase in
year t and the dividend preceding the dividend increase in year t+1 are
all equal, and
(iii) The number of days between the declaration date (DECLDT) of any
pair of two consecutive dividends between the dividend increase in
year t and the dividend preceding the dividend increase in year t+1 is
less than 150 days,
then the counter corresponding to the increase announced in year t+1 is set to ‘1’.
Then, if the three conditions also hold true for year t+2, the counter is incremented by
one to ‘2’, and so on. The identification and counting of dividend increases continues
until one of the three conditions fails to hold, or the end of the sample period is
reached. Using this counting process, the same firm can have several dividend-
increase chains of varying lengths.7 In the case of chains of consecutive earnings
increases, a study by Myers et. al. (2007) retains only the longest chain for each firm
5 For example, one firm in the sample increases its dividend once in 1971 and continues to increase the dividend exactly once every year until the end of the sample is reached in 2006. At the announcement of the dividend increase in the year 1999, this particular firm has a record of 30 consecutive years of once-a-year dividend increases. Note that firms that increase the dividend multiple times in the same year are not included in the sample.6 The first dividend paid by a firm is an initiation and since dividends do not exist prior to an initiation, initiations do not qualify as a dividend increase.7 For example, The J.M. Smucker Company commences paying dividends in 1965 and has a total of nine separate chains of consecutive single-year dividend increases. Of these nine chains, two are contained within the sample period 1999 to 2006. One chain of increases starts in 1998 and ends in 2000 resulting in a chain length of three. Here, the dividend increase in the year 1998 is assigned a ‘1’, 1999 is assigned a ‘2’ and 2000 is assigned a ‘3’. The year 2001 does not contain a dividend increase and thus the chain terminates in 2000 with a length equal to three. A second chain commences in 2002 and continues to 2006, the end of the sample. Here, the dividend increase in 2002 is assigned a ‘1’ and the number assigned to the dividend increase in each subsequent year is increased by one until 2006, which is assigned a ‘5’.
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and another study by Barth et. al. (1999) does not make reference to multiple chains
implying that their sample might contain more than one chain for each firm.
Table I contains the distribution of the dividend increases partitioned by the
length of the chain at the year of the dividend increase announcement for the initial
sample.8 Reading along each right diagonal, the figure in the cell to the lower right is
smaller than the figure for the previous year and previous chain length due to firms
that break the chain of consecutive once-a-year dividend increases. For example, 34
increases announced by firms in the year 2003 have a chain length equal to 4. Of
these 34 firm-chains, 24 announce a dividend increase in the following year (i.e.,
2004) increasing the chain length to 5, while 15 announce a further increase in 2005,
extending the chain length by one extra year to 6.
Almost 40 percent of the sample of dividend increases represents the first
dividend increase. As the chain length increases, the number of observations in that
category falls but at a decreasing rate. For example, in moving from the 1-to-2, 2-to-
3, 3-to-4, and 4-to-5 consecutive increases categories, the sample size decreases by
about 57%, 41%, 36%, and 29%, respectively.
About 11 percent of the sample of dividend increases falls under the category
of 10 or more consecutive increases. We place the twentieth and higher consecutive
dividend increases into a single chain length category, 20+. Less than 3 percent of the
total sample of 4,948 dividend increases falls into this category. The fact that a large
number of firms have built up such a long record of consecutive regular dividend
increases supports the opinions in Lintner (1956) and Brav et al. (2005) that managers
strive to maintain a pattern of smoothly increasing dividends and avoid dividend
decreases. The proportion of the number of observations in each category that
8 For each of exposition dividend increases that represent twenty or more consecutive annual dividend increases are combined in a single dividend-increase-number category of ’20 or more’.
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announce a single dividend increase in the preceding year is presented in Figure I and
shows that as the chain of consecutive dividend increases gets longer, there is an
increasing likelihood that the chain will continue. Starting in year one, the proportion
of firms that extend the dividend-increase chain by one additional year monotonically
increases for each of the first eight categories. For firms that have increased the
dividend once a year for eight consecutive years or more, the likelihood that the
dividend will be increased again in the following year remains remarkably stable at
approximately 80% for each dividend increase category. That a large proportion of
firms increase the dividend if the dividend has previously been increased is clear
support for Lintner’s (1956) finding that managers attempt to maintain a smooth
dividend policy. Clearly, the dividend policy of many firms is designed to deliver a
pattern of steady dividends to stockholders with regular increases over time.
Descriptive Statistics
The existing literature shows that abnormal returns around dividend increase
announcements are related to a number of firm-specific variables. In this study, we
consider four such variables. The CRSP/Compustat Merged Database (CCM) is used
to extract accounting data, where appropriate, for the most recently announced fiscal
year-end that precedes the dividend increase announcement date. The first variable is
the market value of equity or Market Cap, which is defined as the product of the stock
price and the number of shares outstanding at the end of the quarter before the
dividend increase announcement. The second variable, Market-to-Book Ratio, is
included as a proxy for the firm’s future growth opportunities and is measured as the
market value of equity divided by the total shareholder’s equity (The latter variable is
CCM Data Item: SEQQ). The third variable, Leverage Ratio, is defined as the ratio of
total liabilities to total capitalization where total liabilities is measured as short-term
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debt (CCM: DLCQ) plus long-term debt (DLTTQ) and total capital is total liabilities
plus the market value of equity, as defined above. The fourth variable, Dividend
Change, is the change in the increased dividend relative to the previous quarter’s
dividend. Lastly, Earnings Change is the change in the most recent quarterly earnings
compared to the prior quarter. Table II reports summary statistics for our five firm
characteristic variables. The first dividend increase is, on average, the largest increase
and represents a 28.8 percent increase compared to the prior quarter’s dividend.
Looking down the columns, we note a near monotonic decline in the mean and
median percent change as the length of the dividend-increase chain increases. The
tendency for the mean change in the dividend to decline for dividend increases that
occur later in a dividend-increase chain further motivates a more detailed analysis of
the abnormal returns around dividend increase announcements partitioned by the
number of previous dividend increases. The median market capitalization tends to
increase as the number of consecutive dividends increases. This observation indicates
that a longer record of consecutive dividend increases is associated with greater firm
equity value. No clear patterns are discernible for market-to-book ratios or leverage
ratios.
To isolate the abnormal returns due solely to the dividend increase, a sample
of dividend increase announcements unaffected by any other corporate
announcements is required. This section explains the process of identification of a
sample of dividend increase announcements that is unaffected by contemporaneous
announcements. Dividend increase announcement dates are extracted by searching
the newswires using the Factiva database. To allow a clean measurement of the stock
price reaction to a dividend increase announcement, a dividend increase is discarded
from the initial sample if there is another price-sensitive announcement in the period
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within five business days on either side of the Factiva-reported dividend
announcement date.9 This filtering procedure results in a sample of 1,705 dividend
increase announcements during 1999-2006. Thus, approximately one-third of the full
sample of dividend increase announcements is free of potentially confounding
announcements.
Starting from the sample of 1,705 non-confounding dividend increase
announcements, 155 observations are eliminated due to the unavailability of CCM
data. In addition, one observation where the period between the most recent fiscal
year-end and the dividend increase announcement date is unusually long is also
dropped. Another five observations are eliminated due to negative market-to-book
ratios and three outlier observations that have ratios larger than 70 are eliminated.
Lastly, six observations are discarded because the dividend increase announcement
occurred on a day when the stock market is closed. This identification procedure
yields a final sample size of 1,535 dividend increase announcements where the
dividend increase is the only increase in a particular year. A result of the reduced
sample size is fewer chains of between ten and twenty years of consecutive dividend
increase announcements. Therefore, in the remainder of the paper all Chain Lengths
that last ten or more years are combined into a single category referred to as ’10+.’
Table III provides a breakdown for this sample of 1,535 ‘clean’ dividend
increase announcements partitioned by the length of the chain in the announcement
year. The number of dividend increases is fairly evenly spread out over the sample
time period with the fewest observations, 168, in 2001 and the most observations,
233, in 2005.10 The number of observations declines with the number of consecutive 9 Earnings announcements were the most common type of price-sensitive announcements occurring in the vicinity of dividend increase announcements. Other less common announcements include stock split announcements, stock buyback announcements, special dividend declarations, and other announcements such as lawsuits and divestitures.10 In contrast to the figures reported in Table I, the figures in each cell in Table III are not always less than the figure in the cell above and to the left. This apparent aberration is merely a consequence of the
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dividend increases required except for the grouped category of 10+, as firms do not
increase in the year following an increase, causing the chain to terminate.
Descriptive statistics for the firm-specific variables are presented for the final
sample in Table IV. Once again, the mean and median market capitalization of
dividend-increasing firms increases with the number of consecutive dividend
increases. It also appears that the mean market-to-book ratio rises with the length of
the dividend-increase chain, suggesting that firm value or opportunities are higher for
firms that consistently increase their dividends. Mean and median leverage ratios
both increase as the number of dividend increases lengthens but peak at the sixth
increase and then decreasing slightly with each subsequent increase, giving the
relationship a humped shape.
Again, as is the case with the full sample of dividend increases the magnitude
of the dividend change declines as the dividend-increase chain lengthens for the final
sample. For the first dividend increase, the mean (median) increase is 25.9% (16.7%);
after ten or more consecutive increases the mean (median) dividend change falls to
8.4% (6.9%).
The values for the market-to-book ratio, leverage ratio and the dividend
change for the filtered sample reported in Table IV are similar in magnitude to the
corresponding figures reported for the unfiltered sample of dividend increases in
Table II. In addition, for each of the first ten dividend-increase-number categories in
Table II, a fairly uniform one-third of the observations qualify for the filtered sample
in Table IV. However, comparing the market values across the two samples indicates
that the mean and median values for the filtered sample are smaller. The median firm
sample construction method. Of the 34 chains of four consecutive increases in 2004 listed in Table I, 27 are eliminated because another price-sensitive announcement occurs in the surrounding days. In comparison only 23 of the 32 chains of five consecutive annual increases in 2005 are discarded due to the occurrence of other price-sensitive announcements around the dividend increase announcement.
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has a market value of $416 million, which is approximately half the median market
value of $785 million for the unfiltered sample. This result indicates that the filter
excludes a greater proportion of larger market-value firms compared to smaller
market-value firms. Since larger firms tend to disclose more information, in general,
than smaller firms, the former firms will have a greater likelihood of making other
types of corporate announcements in the vicinity of the dividend increase and
therefore not qualify for inclusion in the final sample.
Variable Correlations
The value of the correlation coefficient between each variable pair is presented
in Table V. Market cap and the market-to-book ratio display the highest positive
correlation of 0.395. Market cap and the market-to-book ratio and are negatively
correlated with the leverage ratio with correlation coefficients of -0.285 and -0.369,
respectively. This negative correlation is not surprising because market cap appears in
the denominator of the leverage ratio, and in the numerator of the market-to-book
ratio. Therefore, increases in values of market cap are associated with decreases in the
leverage ratio, and vice versa.
Event Study Methodology
The event study methodology is used to measure abnormal returns around
each dividend increase announcement with a dividend-increase chain. Day 0 is
defined as the event date and is the date the dividend increase announcement appears
in the Factiva database. In most cases, newswires report a dividend increase
announcement (i.e. press release) on the same day it is declared by the firm’s Board of
Directors. In a few cases, the newswires report the increase the day after it is declared
by the Board, and on rare occasions the dividend is announced up to two weeks after
16
it is declared.11 The market reaction to a dividend increase announcement would be
expected to occur on the same day it is reported by the newswires. However, to
capture the stock price reaction to announcements reported after the close of trading
on Day 0, abnormal returns are measured over the two-day window [0, +1].12
Abnormal returns are estimated using two methods to ensure that the results are
insensitive to the choice of risk-adjustment method. The first method estimates the
risk-adjusted abnormal returns as:
ARi,t = Ri,t - (αi – βiRm,t) (1)
where ARi,t is the abnormal return for stock i for day t, Ri,t is the return on stock i for
day t, Rm,t is the return on the CRSP value-weighted market index for day t, αi and βi
are the estimates of the intercept and slope respectively for stock i from a market
model regression estimated using a maximum estimation length of 255 trading days
and a minimum estimation length of 30 trading days computed from data over the
interval [-264, -10] relative to the dividend increase announcement date.13 The second
method follows DeAngelo, DeAngelo and Skinner (1996) and measures abnormal
returns as the stock’s raw return minus the return on the value-weighted market index
and is calculated as:
ARi,t = Ri,t - Rm,t (2)
11 In the latter case, this delay may be due to a CRSP error, or that the Board meets to declare the increased dividend on a particular day but instead of publicly declaring the dividend increase on the same, or the next, day, it is declared some days later.12 Some studies of dividend changes examine abnormal returns around the three-day event window [-1, +1]. These studies typically source announcement dates from the Wall Street Journal Index (WSJI) which contains condensed versions of the original newspaper article reported in the Wall Street Journal (WSJ). A dividend increase announcement made after the WSJ is published, would at the earliest, appear in the following day’s edition. Therefore, the announcement date would typically precede the WSJI date by one day. However, there is no reason to expect a stock price reaction before the announcement date when sourced from the newswires and therefore abnormal returns are measured over the two-day event window [-1, 0]. In fact, the results are obtained from using a two-day event window are similar to those for the three-day window.13 Grullon et al. (2002) subtract the return on the value-weighted market index from the stock return to measure abnormal returns and obtain similar results when they use the equal-weighted market index instead of the value-weighted market index.
17
where the variables in equation (2) have the same definitions as in equation (1). The
2-day cumulative abnormal return for stock i ,CARi[0, +1], is the sum of the abnormal
return for day 0 and day 1 where:
CARi[0, +1] = ARi,0 + ARi,1 (3)
The statistical significance of the abnormal returns calculated using equation
(3) is determined following Patell (1976).
5. Results
Effect of Dividend-Increase Number on Abnormal Returns
Mean abnormal returns for the two-day dividend increase announcement
period partitioned by Dividend Increase Number are reported in Table VI. Across all
1,535 dividend increase announcements the mean risk-adjusted abnormal return is
0.23% and is a slightly higher 0.33% when measured using market-adjusted returns.
Both abnormal return figures are highly significant. An interesting finding emerges
when we partition the sample of dividend increases by the location of the increase
within a dividend-increase chain. The announcement of the first dividend increase is
associated with the largest mean risk-adjusted abnormal return and market-adjusted
abnormal return of 0.42% and 0.62% respectively; both of these figures are highly
statistically significant and substantially higher than the corresponding returns when
all increases are grouped together. At the announcement of the second increase both
the magnitude and statistical significance of the abnormal returns declines compared
to the first increase, but these returns again remain significant. However, with the
exception of the ninth dividend increase, the third and all subsequent increases display
abnormal returns that are not statistically different from zero using either abnormal
return measure. These results suggest that the first and second consecutive dividend
increases are unexpected, and that by time the third, or later, consecutive dividends
18
are announced, the increases are largely expected. Since both abnormal return
measures yield results of a similar magnitude and statistical significance, the
remainder of the study presents results using the risk-adjusted returns only. The
pattern of declining abnormal returns the more often the announcement has been
repeated is consistent with the findings of Pilotte and Manuel (1996) for repeated
stock splits and of Iqbal (2008) for repeated seasoned equity offer announcements and
suggests that the number of times a corporate finance event has been repeated in the
past is an important determinant of the magnitude of the market reaction.
For both abnormal return calculation methods, the evidence presented in Table
VI indicates that only the first and second dividend increases are associated with
significantly positive abnormal returns. However, Table IV shows that the size of the
dividend increase declines as the dividend increase number gets longer. Therefore,
the significant positive abnormal returns found for the first and second consecutive
dividend increases may simply be due to the fact that these are, on average, larger
dividend changes than those later in a chain.
To investigate this issue, Table VII presents the mean abnormal return by
dividend change size and number of consecutive increases. Rather than forming
dividend change quintiles, the results are presented using dividend change categories
of five percentage points for comparison with existing literature. For example,
Dielman and Oppenheimer (1984) investigate dividend increases that exceed twenty-
five percent and document a mean abnormal return of 2.25% while Yoon and Starks
(1995) examine dividend increases of at least ten percent and report a mean abnormal
return of 1.15%. In comparison with these two studies, we find a smaller mean
abnormal return of 0.49% for dividend changes of more than twenty-five percent and
0.38% (not shown in table) for dividend changes of more than ten percent. However,
19
the evidence of variation in dividend-increase announcement period abnormal returns
over time documented by Li and Lie (2006) implies that the results from studies that
use different sample periods may not be directly comparable. Also, in contrast to a
number of other studies, this study does not trim or winsorize the sample, but we do
perform a number of alternative tests to demonstrate the sensitivity of the analysis to
the method of sample construction. Abnormal returns are approximately 0.20%
around announcements of dividend increases of 10% or less. Abnormal returns are -
0.04% for increases of 10%-15% and 0.21% for increases between 15% and 20%.
The largest abnormal returns are associated with the two largest categories of
dividend increases. Abnormal returns are 0.48% and 0.49%, respectively, for
increases of 20-25% and for increases greater than 25%. That larger dividend
increases are associated with larger abnormal returns is consistent with Pettit (1972)
and demonstrates that in more recent times, the market continues to interpret dividend
increases of all magnitudes as ‘good news’ albeit at a smaller magnitude.
An examination of the number of observations reported in Table VII reveals a
degree of clustering in dividend change amounts within each increase-number class.
For all first-numbered dividend increases, large increases are more frequent than
smaller increases. Focusing on changes in the dividend of 15 percent or more as
shown in the last column of the table, 54% of the first increases, 46% of the second
consecutive increases, and 33% of the third consecutive increases fall into the 15
percent or higher increase categories. A near monotonic pattern continues until only
9% of the increases in the ten-or-more consecutive dividend increases category are
greater than 15% in magnitude.14
14 The corresponding figures for the unfiltered sample of 4,948 dividend increases are similar to those reported in Table VII. For example, of all first-time dividend increases, 54% increase the dividend by greater than 15%. The proportion monotonically declines until the seventh consecutive increase (19%), then rises to 23%, 24%, and then drops to 16% for the eighth, ninth and tenth consecutive dividend increases, respectively.
20
Multivariate Results
As reported in Table VI, abnormal returns are positive and significant for the
first two consecutive dividend increases, but are generally not significantly different
from zero for subsequent increases. However, as documented in Table IV, the first
two increases are, on average, larger, and the firms are smaller, compared to later
increases. Yoon and Starks (1995) and Lang and Litzenberger (1989) find a difference
in abnormal returns around dividend increase announcements depending on the
market-to-book ratio which motivates the inclusion of this particular variable in the
model. The firm’s leverage ratio is included following the evidence of Barth et al.
(1999) that firms with at least five years of annual earnings increases have
significantly lower debt-equity ratios than other firms. Therefore, we use a regression
model to determine if the position of the dividend increase within a chain is an
important determinant of abnormal returns after controlling for four firm-specific
variables. The following equation is estimated:
CAR=β0+ β1 Δ DPS+β2 Δ EPS+ β3 MVE+β4 MBR+β5 LVR+ ∑i=1, i≠5
10+
γ i DINUMi(4)
where CAR is the 2-day announcement period abnormal return as defined in equation
(3), DPS is the size of the dividend increase, EPS is the change in earnings per
share, MVE is the natural logarithm of the market value of the firm’s equity, MBR is
the firm’s market-to-book ratio, and LVR is the firm’s market-leverage ratio.
DINUMi is a dummy variable with a value of one if the dividend increase is the ith
consecutive increase in a dividend-increase chain, and zero otherwise. The dummy
variable that represents five consecutive dividend increases is excluded from equation
(4) in order to prevent multicollinearity among the dummy variables that would
otherwise occur.
21
The results of estimating five single-variable specifications of equation (4),
and the complete equation, are presented in Table VIII. Model 1 indicates that the
size of the dividend increase (DPS) is positively related to the magnitude of the
announcement-period abnormal returns but the coefficient is not significant, which
contrasts with prior research. The significant negative coefficient on the market value
of equity (MVE) suggests that the information contained in a dividend increase
announcement is more important for small firms than for large firms. This difference
in dividend increase expectations may simply be driven by the more frequent
information releases and greater analyst coverage of large market-value firms. The
coefficient estimates of the three remaining univariate models indicate that abnormal
returns are not significantly related to the earnings-per-share change (EPS), market-
to-book ratio (MBR) or the leverage ratio (LVR).
Estimated coefficients for the multivariate equation (4) are shown as ‘Model
6.’ The market value of equity remains a significant determinant of abnormal returns
but the leverage ratio is now negative and significant at the 10% level. This finding
REQUIRES SOME EXPLANATION.
Turning to the main variables of interest in this study, the dividend increase
number, we find results broadly consistent with the univariate results reported in
Table IV. DINUM1 and DINUM2 are both positive at approximately 0.70%, and
significant, confirming that the first and second annual dividend increase
announcements convey positive news. By the third increase, returns are much smaller
in magnitude and not significantly different from zero consistent with this category of
dividend increase announcements being expected by the market. All remaining
coefficient of DINUM are not significant with the exception of the eighth increase
which is significant at the ten percent level. Figure I indicates that once firms attain a
22
record of eight consecutive annual dividend increases, approximately eighty per cent
of firms deliver a further increase, extending the chain length by one. This statistic,
combined with the knowledge from Lintner (1956) that firms seek to supply a smooth
pattern of dividend payments, suggests that, with a high probability, once a firm has
delivered seven consecutive dividend increases, a seventh increase may signal that the
firm will continue to increase dividends in the future and aim to attain a record of ten
consecutive annual increases. Such a record is important for firms to be declared a
Dividend Achiever. An insignificant abnormal return at the announcement of the
eighth, ninth and tenth increase is consistent with these increases being expected.
Sensitivity Analysis
To test whether the results reported in the previous section are robust to the
sample construction technique, a number of modifications are made to the original
sample and equation (4) is then estimated. The first robustness test is to exclude
instances when the stock did not trade on the dividend increase announcement date
and this requirement decreases the sample size to 1,431 increase announcements.15
The results presented in Table IX under the column heading ‘Model 1’ are broadly
similar to the results for the full sample of 1,535. The significance levels attached to
each of the dummy variables that represent the number of consecutive increases are
lower compared to the full sample yet the coefficient values are higher in each case.
As explained earlier, firms can have multiple dividend-increase chains. The second
robustness test excludes from the sample dividend increase announcements that occur
within 365 days of the termination of a dividend-increase chain. The motivation for
this second sensitivity check is to require the firm remains out of the sample for one
15 We identify non-trading days as days when the CRSP-reported stock price (PRC) is negative, indicating that the stock price is imputed to be the average of the bid and ask prices.
23
year before the identification of a ‘new’ dividend increase chain can commence. The
results for this ‘Model 2’ are comparable to Model 1 results in terms of statistical
significance, with the exception that the second dividend increase announcement is no
longer significant.
The third robustness check uses year fixed effects to control for any time trend
that might exist in abnormal returns. The results listed under ‘Model 3’ indicate a
slight reduction in the sample size but the first two dividend increases remain
significant at the ten percent level. Interestingly, the dummy variable representing
eight consecutive increases is no longer significant.
In summary, the robustness checks provide further support that positive
abnormal returns are confined to certain dividend increases only.
6. Conclusions
We investigate whether the market learns to anticipate dividend increases by
firms with a history of consistently increasing their dividend. Results suggest that the
market reaction to dividend increases is positive and significant for the first and
second dividend increase and then becomes insignificant for subsequent increases.
This is an interesting result in that it suggests that the positive effects of dividend
increases are confined to the earliest increases. This is intuitively plausible in that
market participants should be able to anticipate dividend increases by firms that have
a long history of them. However, it is somewhat surprising that it should happen so
quickly.
We also find that a difference in abnormal returns depending on the location
of a dividend increase within a chain of increases remains after controlling for other
determinants of the market reaction such as market capitalization, the market-to-book
24
ratio, leverage, and size of the dividend change, and is robust to several different
sample construction methods. It is clear that the conventional method of grouping
together all dividend increases obscures this result.
25
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29
Figure IProportion of firms that increase the dividend by one additional year
The figure shows the ratio of the number of dividend increases for 2000 to 2006 in each Chain Length category to the number of dividend increases for 1999 to 2005 in the preceding Chain Length category for each progression category. The proportions are calculated using the figures reported in Table I but for each progression category t-to-t+1 the number of increases in 1999 for chain length t+1 and the number of increases in 2006 for chain length t are excluded. This adjustment is required to ensure a reliable measure of the proportion of firms that progress because the number of increases in 1998 for year t and the number of increases in 2007 for year t+1 is unknown.
1-to-2
2-to-3
3-to-4
4-to-5
5-to-6
6-to-7
7-to-8
8-to-9
9-to-10
10-to-11
11-to-12
12-to-13
13-to-14
14-to-15
15-to-16
16-to-17
17-to-18
18-to-19
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Chain Length Progression Category
Prop
ortio
n
30
Table IDistribution of Chain Length by Announcement Year
This table reports the distribution of dividend increases classified by announcement year and Chain Length, which is the number of years of consecutive once-a-year increases, for a sample of dividend increases occurring between 1999 and 2006. Inclusion in the sample requires that year t+1 contains one dividend increase only, the dividends between the increase in year t and before the increase in year t+1 and all equal, and any two dividends must be declared within 150 days of each other.
Announcement YearChain Length 1999 2000 2001 2002 2003 2004 2005 2006 TOTAL1 234 214 202 224 267 307 302 219 19692 104 78 72 87 112 125 138 140 8563 71 56 36 45 58 62 91 83 5024 51 40 28 28 34 34 49 58 3225 39 33 23 22 22 24 32 35 2306 24 27 21 17 17 15 15 22 1587 21 17 23 16 13 17 10 10 1278 19 14 16 21 12 9 15 8 1149 16 17 11 13 19 11 7 11 10510 3 15 12 11 12 12 10 5 8011 4 2 10 10 10 9 9 7 6112 7 3 2 8 8 7 7 8 5013 11 3 2 1 8 7 6 5 4314 12 10 3 1 1 6 7 5 4515 4 10 7 3 1 1 6 7 3916 5 3 7 7 1 1 1 5 3017 7 4 2 6 6 1 1 1 2818 2 6 3 2 5 3 1 1 2319 1 2 6 3 2 5 3 0 2220+ 15 15 14 18 20 19 21 22 144TOTAL 650 569 500 543 628 675 731 652 4948
31
Table IISummary Statistics for Initial Sample
The table reports the mean and median values for five firm-specific variables for a sample of 4,612 dividend increases with a declaration date between January 1, 1999 and December 31, 2006 partitioned by Chain Length, which is the number of years of consecutive once-a-year dividend increases. Chain Lengths of twenty or more are combined in a single category labeled ’20+.’ The total sample size of 4,948 indicated in Table I is greater than the total of 4,612 here because of incomplete financial/accounting data in the CRSP/Compustat Merged Database for 330 dividend-increase events. Six observations with abnormally large percentage dividend changes as a result of CRSP recording errors are also excluded.
Dividend change (%) Earnings Change (%) Market Cap ($m) Market-to-book Leverage ratioChain Length n Mean Median Mean Median Mean Median Mean Median Mean Median1 1777 28.6 16.7 0.07 0.06 5,129 534 2.61 1.88 0.29 0.252 797 20.2 13.6 0.10 0.05 5,763 655 2.65 1.98 0.30 0.263 479 16.2 12.5 0.04 0.05 5,668 688 2.81 1.98 0.31 0.254 313 15.0 11.4 0.24 0.08 7,585 701 2.57 2.06 0.32 0.295 224 12.7 10.0 0.19 0.07 6,249 597 2.54 1.92 0.33 0.306 154 12.4 10.0 0.13 0.05 6,386 671 3.08 1.96 0.35 0.327 126 11.5 10.0 -0.07 0.04 7,074 729 2.59 2.07 0.34 0.308 112 11.8 9.8 0.07 0.06 5,892 1,117 2.90 2.14 0.32 0.269 99 14.3 9.1 0.10 0.04 6,871 1,408 3.44 2.25 0.32 0.2810 73 10.6 8.3 0.22 0.08 8,037 1,604 3.07 2.34 0.31 0.2711 56 11.3 10.0 0.29 0.08 7,299 1,717 3.11 2.47 0.27 0.2112 45 12.9 10.0 0.23 0.10 11,886 2,072 3.78 2.55 0.26 0.1913 40 8.9 8.0 -0.19 0.08 11,677 1,822 3.49 2.28 0.24 0.1414 41 9.2 6.3 0.24 0.12 9,456 2,021 4.37 2.13 0.23 0.1915 37 7.5 6.7 0.20 0.16 12,313 2,414 3.34 2.03 0.22 0.1916 28 10.1 7.3 0.21 -0.03 18,541 2,594 3.22 2.33 0.23 0.1917 27 6.5 4.8 0.28 0.12 17,467 1,820 2.59 2.03 0.24 0.1918 22 6.9 4.8 0.69 0.10 11,669 1,828 2.42 2.12 0.29 0.2919 22 6.5 4.7 0.45 0.12 8,175 2,180 2.45 2.35 0.29 0.2420+ 140 8.4 5.7 0.13 -0.01 16,524 3,564 3.48 2.35 0.22 0.18Total 4612 20.2 11.8 0.10 0.06 6,503 785 2.75 1.98 0.30 0.25
32
Table IIISample Distribution by Year and Chain Length
This table contains the number of dividend increases announcements classified by the announcement year and the Chain Length for a sample of 1,535 quarterly dividend increases announced by US firms between January 1, 1999 and December 31, 2006. Chain Length is defined as the number of consecutive once-a-year dividend increases and chains lengths of ten or more are combined in a single category labeled ’10+.’
Chain Length 1999 2000 2001 2002 2003 2004 2005 2006 Total % of Total1 54 70 57 76 83 81 93 64 578 37.7%2 23 28 34 30 36 34 43 40 268 17.5%3 24 19 11 21 18 20 22 18 153 10.0%4 23 15 11 8 13 7 19 16 112 7.3%5 13 16 4 7 6 12 9 6 73 4.8%6 8 9 9 6 7 5 5 8 57 3.7%7 5 7 12 7 3 7 6 4 51 3.3%8 7 4 10 8 8 1 6 3 47 3.1%9 3 6 3 3 7 4 1 5 32 2.1%10+ 21 19 17 19 23 18 29 18 164 10.7%Total 181 193 168 185 204 189 233 182 1,535 100.0%% of Total 11.8% 12.6% 10.9% 12.1% 13.3% 12.3% 15.2% 11.9% 100.0%
33
Table IVDescriptive Statistics for Dividend Increases without Concurrent Announcements
The table contains firm-specific descriptive statistics for five variables partitioned by Chain Length, which is the number of consecutive once-a-year dividend increases, for a sample 1,535 quarterly dividend increases announced by US firms between January 1, 1999 and December 31, 2006. Chain Lengths of ten or more are combined in a single category labeled ’10+.’ Dividend change is the change in the dividend relative to the previous quarterly dividend. Earnings change is the difference in quarterly earnings per share for the two most recent quarters prior to the dividend increase, scaled by the stock price at the end of the prior quarter. Market Cap is the market value of equity (in $ millions) and is the product of the stock price and the number of shares calculated at the end of the quarter prior to the dividend increase announcement date. The market-to-book ratio is Market Cap divided by the total shareholder’s equity. The leverage ratio is the ratio of total liabilities to total capital where total liabilities is measured as short-term debt plus long-term debt and total capital is total liabilities plus Market Cap. Accounting variable values are for the fiscal year end dates that are reported on or before the dividend increase announcement date.
Dividend change (%) Earnings change (%) Market Cap ($m) Market-to-book Leverage ratioChain Length n Mean Median Mean Median Mean Median Mean Median Mean Median1 578 25.9 16.7 0.15 0.06 1,916 255 2.23 1.76 0.30 0.272 268 19.6 14.3 0.35 0.05 3,089 345 2.54 1.95 0.32 0.303 153 15.7 11.1 0.26 0.05 2,435 358 2.33 1.89 0.32 0.294 112 16.7 12.1 0.02 0.07 2,488 427 2.33 2.03 0.32 0.295 73 9.9 8.0 0.29 0.10 2,128 355 2.45 1.83 0.36 0.356 57 10.7 9.1 -0.12 0.01 3,065 589 2.35 1.89 0.40 0.387 51 10.0 8.3 -0.32 0.11 8,832 881 2.47 2.05 0.32 0.288 47 11.3 9.6 0.13 0.17 6,178 844 2.57 2.15 0.31 0.259 32 12.2 8.6 -0.10 0.02 2,606 668 2.70 2.01 0.30 0.2510+ 164 8.4 6.9 0.07 0.06 4,364 1,509 2.87 1.97 0.25 0.21Total 1,535 18.7 11.1 0.15 0.05 2,903 416 2.42 1.88 0.31 0.28
34
Table VCorrelation Matrix
The table reports the correlation coefficient between each pair of variables for a sample 1,584 quarterly dividend increases announced by US firms between January 1, 1999 and December 31, 2006. CAR is the two-day cumulative risk-adjusted abnormal return. Market cap is the market value of equity (in $ millions) and is the product of the stock price and the number of shares outstanding one trading day before the dividend increase announcement date. The market-to-book ratio is the market value of equity divided by the total shareholder’s equity. The leverage ratio is the ratio of total liabilities to total capital where total liabilities is measured as short-term debt plus long-term debt and total capital is total liabilities plus the market value of equity. Dividend change is the change in the dividend relative to the previous quarterly dividend. Earnings change is the change in the most recently announced earnings relative to the previous quarter. Accounting variable values are for the fiscal year end date that precedes the dividend increase announcement date by at least thirty days.
CAR Market cap
Market-to-bookratio
Leverage ratio
Dividend change
Earnings change
CAR 1Market cap -0.041 1Market-to-book ratio -0.027 0.198 1Leverage ratio -0.035 -0.084 -0.378 1Dividend change 0.004 0.011 0.059 -0.067 1Earnings change 0.034 0.004 0.010 -0.026 -0.002 1
35
Table VIMean Abnormal Return
This table reports the two-day abnormal return (expressed in percent) calculated using two different techniques around the dividend increase announcement date for a sample of 1,584 dividend increase announcements with a declaration date between January 1, 1999 and December 31, 2006 classified by Dividend Increase Number. The dividend increase announcement is the only price-sensitive announcement that occurs in the five trading days on either side of the announcement date. Chains of ten or more consecutive annual dividend increases are combined in a single category labeled ’10+.’
Risk-adjusted returns Market-adjusted returnsDividend Increase Number n CAR[0, +1] Z-statistic CAR[0, +1] Z-statistic1 578 0.421 3.41*** 0.620 3.59***
2 268 0.364 2.16** 0.445 2.30**
3 153 -0.088 0.31 -0.140 0.154 112 -0.064 -0.11 -0.077 -0.065 73 -0.387 -0.54 -0.472 -0.986 57 0.171 0.62 0.552 1.267 51 0.237 0.65 0.439 0.958 47 0.472 1.03 0.520 0.989 32 0.452 1.62 0.847 1.80*
10+ 164 -0.028 -0.08 -0.038 -0.20TOTAL 1,535 0.225 3.57*** 0.334 4.25***
*, **, and *** denote statistical significance at the 10%, 5% and 1% levels, respectively.
36
Table VIIMean Abnormal Return by Magnitude of Dividend Increase
This table reports the cumulative abnormal return for the two days (CAR) (expressed in percent) around the dividend increase announcement date for a sample of dividend increase announcements with a declaration date between January 1, 1999 and December 31, 2006 classified by the Chain Length. The dividend increase announcement is the only price-sensitive announcement that occurs in the five trading days either side of the announcement date. Chain Lengths of ten or more are combined in a single category labeled ’10+.’ CHG is the change in the dividend relative to the previous quarterly dividend. Due to small numbers of observations in some cells significance levels, when appropriate, are reported only for the first four and the tenth Chain Length category, for each dividend change size.
Size of the Dividend Change % of obs in ≥ 15% category
Dividend Increase Number CHG < 5% 5% ≤ CHG < 10% 10% ≤ CHG < 15% 15% ≤ CHG < 20% 20% ≤ CHG < 25% CHG ≥ 25%n CAR n CAR n CAR n CAR n CAR n CAR
1 50 -0.276 101 0.493 113 0.448 46 -0.407 82 0.803*** 186 0.589** 54.3%2 28 0.496 59 0.160 57 0.045 25 0.823 32 0.825 67 0.370 46.3%3 21 0.127 41 -0.176 41 -0.363 15 0.144 15 0.430 20 -0.129 32.7%4 18 0.614 28 -0.301 27 -0.269 7 1.243 13 -1.766*** 19 0.616 34.8%5 14 -0.891 26 -0.181 17 -0.314 9 -0.052 5 -0.306 2 -1.872 21.9%6 10 1.276 20 -0.166 16 -0.515 6 -0.002 2 2.000 3 1.516 19.3%7 13 0.259 17 0.705 14 -0.639 2 1.656 3 0.096 2 1.032 13.7%8 8 0.454 18 0.682 13 0.004 3 2.037 1 2.618 4 -0.623 17.0%9 6 3.387 12 -0.685 7 -0.783 2 2.123 1 -2.859 4 1.616 21.9%10+ 59 0.092 60 0.116 30 -0.594 5 -0.104 5 -0.330 5 0.586 9.1%Total 227 0.206** 382 0.153 335 -0.044 120 0.212 159 0.481** 312 0.491*** 38.5%*, **, and *** denote statistical significance at the 10%, 5% and 1% levels, respectively.
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Table VIIIRegression Results
The table reports the results of estimating five different specifications of the equationCAR = β0 + β1DPS + β2EPS + β3MVE + β4MBR + β5LVR + ∑iDINUMi
for a sample of 1,535 dividend increases announced between January 1, 1999 and December 31, 2006. CAR is the two-day cumulative risk-adjusted abnormal return, CAR[0, +1]. CHG is the dividend change calculated as the change in the dividend compared to the previous quarterly dividend. MVE is the natural logarithm of the market value of equity (in $ millions) where the market value of equity (MVE) is calculated as the product of the stock price and the number of shares outstanding one trading day before the dividend increase announcement date. The leverage ratio (LVR) is calculated as total current liabilities plus total non-current liabilities divided by the sum of total current liabilities, total non-current liabilities and MVE. The market-to-book ratio (MBR) is calculated as MVE divided by total shareholders’ equity. DINUMi is a dummy variable that equals one if the dividend increase represents the ith consecutive annual increase where i ranges from 1 to 10+ (i.e. ten or more) and DINUM5 is the omitted dummy variable. The row headed ‘R-squared’ reports the adjusted R-squared. Two-tailed t-statistics are in parentheses.
Variable Model 1 Model 2 Model 3 Model 4 Model 5 Model 6Constant 0.173
(2.13)**0.218(3.27)***
2.634(3.85)***
0.298(2.95)***
0.300(2.70)***
2.499(2.97)***
DPS 0.282(1.13)
0.120(0.46)
EPS 4.70(1.31)
4.885(1.32)
MVE -0.121(-3.53)***
-0.135(-3.46)***
MBR -0.030(-0.96)
-0.001(-0.02)
LVR -0.241(-0.84)
-0.561(-1.78)*
DINUM1 0.697(2.14)**
DINUM2 0.701(2.05)**
DINUM3 0.263(0.71)
DINUM4 0.273(0.70)
DINUM6 0.601(1.31)
DINUM7 0.676(1.43)
DINUM8 0.922(1.90)*
DINUM9 0.845(1.54)
DINUM10+ 0.447(1.22)
R-squared <0.001 0.007 <0.000 <0.001 <0.001 0.010F-statistic 1.21 12.49*** 0.92 0.70 1.74 2.15***
*, **, and *** denote statistical significance at the 10%, 5% and 1% levels, respectively.
38
Table IXRobustness Checks
The table reports the results of estimating the equation CAR = β0 + β1DPS + β2EPS + β3MVE + β4MBR + β5LVR + ∑iDINUMi
for four different samples of dividend increases with a declaration date between January 1, 1999 and December 31, 2006. CAR is the two-day cumulative market-adjusted return, CAR[0, +1], CHG is the size of the dividend change, MVE is the natural logarithm of the market value of equity, MBR is the market-to-book ratio, LVR is the leverage ratio, and DINUMi is a dummy variable that equals one if the dividend increase represents the ith consecutive annual increase where i ranges from 1 to 10+ (i.e. ten or more) and DINUM5 is the omitted dummy variable. The row headed ‘R-squared’ reports the adjusted R-squared. Two-tailed t-statistics are in parentheses. Model 1 reports the results for the sample of dividend increase announcements where the announcing firm’s stock trades on the dividend increase announcement date. Model 2 reports the results for a sample where the dividend increase is declared at least 365 days after the last dividend increase. Model 3 includes year fixed-effects. The row headed ‘R-squared’ reports the adjusted R-squared. Two-tailed t-statistics are in parentheses.
Variable Model 1 Model 2 Model 3Constant 2.399
(2.74)***2.309(2.69)***
2.493(2.91)***
DPS 0.103( 0.40)
0.054(0.19)
0.102(0.39)
EPS 4.441(1.22)
3.673(0.99)
3.671(1.01)
MVE -0.127(-3.21)***
-0.123(-3.18)***
-0.126(-3.28)***
MBR -0.018(-0.91)
-0.021(-1.02)
-0.023(-1.13)
LVR -0.308(-0.98)
-0.540(-1.71)*
-0.596(-1.92)*
DINUM1 0.601(1.78)*
0.785(2.37)**
0.664(2.02)**
DINUM2 0.628(1.77)*
0.731(2.11)**
0.642(1.86)*
DINUM3 0.186(0.49)
0.316(0.85)
0.256(0.69)
DINUM4 0.228(0.57)
0.280(0.71)
0.187(0.48)
DINUM6 0.596(1.25)
0.646(1.40)
0.579(1.26)
DINUM7 0.584(1.20)
0.672(1.41)
0.576(1.21)
DINUM8 0.751(1.53)
0.918(1.87)*
0.781(1.59)
DINUM9 0.869(1.50)
0.849(1.53)
0.841(1.52)
DINUM10+ 0.318(0.85)
0.405(1.09)
0.325(0.88)
Year Fixed Effect No No Yes
n 1,445 1,489 1,535R-squared 0.008 0.011 0.013F-statistic 1.88** 2.17*** 1.96***
*, **, and *** denote statistical significance at the 10%, 5% and 1% levels, respectively.
39
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